CS200740B1 - Connexion of thermal stable supply of normal stress - Google Patents

Description

The invention relates to the connection of a temperature-stable normal voltage source with an integrated circuit MAA 723.

In the prior art connection of thermally stable normal voltage sources with an integrated circuit MAA 723 with an external operational amplifier (increasing the accuracy of temperature control), one input of the operational amplifier is connected to a temperature compensated back-up voltage source, usually consisting of a voltage subnormal and current source. This disadvantage is overcome by the connection of a thermally stable normal voltage source with an integrated circuit MAA 723 according to the invention, which is based on the use of an internal reference voltage source of the integrated circuit to obtain a support voltage for an external operational amplifier.

It is an object of the present invention to provide a thermally stable normal voltage source and an integrated circuit MAA 723, the second, third and fifth terminals of which are connected to the negative pole of the power supply, the seventh and eighth terminals being connected to the positive pole of the power supply; an internal reference voltage source is connected, the ninth and tenth terminals are connected, while one input of the external opamp is connected to the first terminal of the integrated circuit and upstream of the limiting resistor to the fifth terminal, while the output of the external opamp is connected to the sixth circuit, whose essence is that the second input of the external opamp is through

740

200, 740, the first resistor divider resistor is connected to the fourth IC terminal and simultaneously through the resistor divider to the fifth IC circuit.

The higher wiring effect consists in simplifying the circuit for generating the back-up voltage for the external operational amplifier and at the same time improving the parameters of the thermally stable normal voltage source by refining the temperature control of the integrated circuit MAA 723.

The circuit according to the invention will be described in more detail by way of example with reference to the following figures, in which Fig. 1 is a general connection of a thermally stable normal voltage source and an MAA 723 θ integrated circuit by an external operational amplifier. voltage e by the integrated circuit MAA 723 and an external operational amplifier MAA 741.

In the circuit shown in FIG. 1, the input terminals 2 and 3 of the 0 _χ integrated circuit amplifier are connected to common terminal 5. · The internal power transistor base of the integrated circuit Op connected to terminal 9 is connected to an internal reference voltage source at terminal 4, its the collector on terminal 7 is connected to terminal 8 and to the positive pole of the power supply. The internal power transistor direction is connected to terminal 6 and via control transistor T It is connected to common terminal 5. Controlling the current through transistor T using an external operational amplifier QZ stabilizes the chip temperature of the integrated circuit Op As a temperature dependent element, a diode formed by the base and the collector of the internal protection transistor by connecting terminals 9 and 10. One OZ input is connected via the resistor divider E ^ and Eg to the internal reference voltage sources at terminal 4, the other OZ input is connected to terminal 1 and simultaneously via the limiting resistor E ^ to common terminal 5.

In particular the circuit according to FIG. 2, the terminal 1 of the integrated circuit 0 ₁ connected ee input terminal 2 of the second integrated circuit Og and simultaneously via a current limiting resistor R with terminals 2, 3 and 5 of the first circuit Op input terminal 3 is the second circuit Og is through osporový divider E ^,

Eg connected to the terminals 4, £ and 10 of the circuit Op The terminal 6 of the circuit Οχ is through the resistor R? The control transistor T is controlled by current from the output terminal 6 of the second circuit Og via a further resistive divider E1 and Eg. The terminal 7 of the second circuit Og is connected to the terminals 7 and 8 of the circuit Οχ and at the same time to the positive field of the power supply. The terminal 4 of the second circuit Og is connected to the common terminal 5, the circuit Οχ and the negative pole of the power supply. With the circuit according to FIG. 2 can be achieved by the temperature coefficient of the reference voltage 10 ^-6 / ° K to 10 ^-7 / ° K at ambient temperatures of 20-80 ° C.

Claims (1)

Connection of a thermally stable normal voltage source with integrated circuit MAA 723, the second, third and fifth terminals of which are connected to the negative field of the power supply, the seventh and eighth terminals are connected to the positive pole of the power supply, with the fourth terminal of the reference voltage, the ninth and tenth terminals are connected, while one input of the external opamp is connected to the first terminal of the integrated circuit and simultaneously via the limiting resistor to the fifth terminal, while the output of the external opamp 206 740 Amplifier is connected via control transistor to the Sixth terminal of the integrated circuit, characterized in that the second input of the external operational amplifier (OZ) is connected via the first resistor resistor (\) to the fourth terminal (4) of the integrated circuit (op and simultaneously resistor (Rg) of resistor divider with 5th terminal (5) of integrated circuit (op.